Imagine a "smart fluid" whose internal structure can be rearranged just by changing temperature. In a new study published in Matter, researchers report a way to overcome a long-standing limitation in ...

Active matter systems feature unique behaviors that include collective self-assembly structures and collective migration. However, the efforts to realize collective entities in spaces without ...

For more than a century, scientists have treated chemistry as the master key to building new materials, tuning bonds and charges to coax atoms into useful patterns. A new wave of research is quietly ...

Colloidal self-assembly is a process where colloidal particles spontaneously organize into ordered structures under specific conditions. Colloidal self-assembly serves as a foundation for designing ...

Nanoparticle self-assembly and colloidal systems represent a dynamic field where nanoscale building blocks spontaneously organise into larger, functional structures. This process leverages a balance ...

Soft matter interfaces are ubiquitous across diverse technologies ranging from pharmaceuticals to chemical formulations. The presence of surfactant molecules or colloidal particles at fluid interfaces ...

Colloidal lithography is a nanofabrication technique that utilizes colloidal particles as masks for creating ordered nanostructures on substrates. This cost-effective and scalable method has gained ...

Highlights of IRG research are reported on an ongoing basis to the NSF MRSEC program. Efficient Electrocatalytic Switching of Azoheteroarenes in the Condensed Phases Azo-based photoswitches show ...

Designing components that can robustly self-assemble into structures with biological complexity is a grand challenge for material science. Proofreading and error ...